Urban Heat Stress and Mitigation Solutions: An Engineering Perspective

Description

This book provides the reader with an understanding of the impact that different morphologies, construction materials and green coverage solutions have on the urban microclimate, thus affecting the comfort conditions of urban inhabitants and the energy needs of buildings in urban areas. The book covers the latest approaches to energy and outdoor comfort measurement and modelling on an urban... Read more

This book provides the reader with an understanding of the impact that different morphologies, construction materials and green coverage solutions have on the urban microclimate, thus affecting the comfort conditions of urban inhabitants and the energy needs of buildings in urban areas. The book covers the latest approaches to energy and outdoor comfort measurement and modelling on an urban scale, and describes possible measures and strategies to mitigate the effects of the mutual interaction between urban settlements and local microclimate.

Despite its relevance, only limited literature is currently devoted to appraising—from an engineering perspective—the intertwining relationships between urban geometry and fabrics, energy fluxes between buildings and their surroundings, outdoor microclimate conditions and building energy demands in urban areas. This book fills this gap by first discussing the physical processes that govern heat and mass transfer at an urban scale, while emphasizing the role played by different spatial arrangements, manmade materials and green infrastructures on the outdoor microclimate. The first chapters also address the implications of these factors on the outdoor comfort conditions experienced by pedestrians, and on the buildings’ energy demand for space heating and cooling.

Then, based upon cutting-edge experimental activities and simulation work, this book demonstrates current and forthcoming adaptation and mitigation strategies to improve the urban microclimate and its impact on the built environment, such as cool materials, thermochromic and retroreflective finishing materials, and green infrastructures applied either at a building scale or at the urban scale. The effect of these solutions is demonstrated for different cities worldwide under a range of climate conditions. Finally, the book opens a wider perspective by introducing the basic elements that allow fuel poverty, raw materials consumption, and the principles of circular economy in the definition of a resilient urban settlement.

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Editor(s)

Biography

Vincenzo Costanzo is currently a Researcher at the Department of Civil Engineering and Architecture (DICAR) at the University of Catania, Italy. He holds a PhD in energetics focusing on building and environmental physics.

Gianpiero Evola is Assdociate Professor of building physics at the Department of Electric, Electronic and Computer Engineering (DIEEI) at the University of Catania, Italy. He holds a PhD in building physics.

Luigi Marletta is Professor of building physics at the Department of Electric, Electronic and Computer Engineering (DIEEI) at the University of Catania, Italy.

Urban Heat Stress and Mitigation Solutions An Engineering Perspective

Description

Table of Contents

Editor(s)

Biography

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